KR20020001067A - Apparatus for battery charging of mobile station - Google Patents

Abstract

PURPOSE: A battery charger for a cellular phone is provided to reduce parts and thereof and manufacturing cost by constituting the battery charger to be operated in only a hardware function not a software control function, thereby improving efficiency. CONSTITUTION: A battery charger for a cellular phone comprises an AC/DC rectifier bridge unit(100), a reference voltage unit(110), a PWM(pulse width modulation) controller(120), a step-down generator(130), an output controller(140), and an LED controller(150). The AC/DC rectifier bridge unit consists of diodes and condensers so as to convert AC input power into rectified DC output power. The reference voltage portion compares output power with reference voltage to generate compared voltage. The PWM controller compares output power from the reference voltage unit with reference voltage to generate compared voltage. The step-down generator consists of a transistor, diodes, condenser, and coil and generates a power switching voltage according to the control signal outputted from the PWM controller. The LED controller consists of a transistor and LEDs and turns on/off the LED according to the voltage generated from the reference voltage unit and the output controller.

Description

Battery charger for mobile phone {Apparatus for battery charging of mobile station}

The present invention relates to a battery charger for a mobile phone, and more particularly, to a battery charger for a mobile phone that can be configured to only the essential functions of the charger in hardware and to eliminate parts and labor by removing software control functions.

In general, a battery (eg, a lithium battery) that can be charged and used several times is widely used as a power supply to a mobile phone, and a mobile phone user includes a charger to recharge a discharged battery.

1 is a schematic perspective view of a general mobile phone charger.

As shown in FIG. 1, the battery charger 2 for a mobile phone is configured to charge the discharged battery 3 by supplying power by mounting the battery 3 in front and rear.

In addition, the charger 2 has a built-in charge indicator 4 indicating the state of charge of the battery 3 and a circuit for blinking the indicator light 4 in accordance with the battery 3, so that, for example, when charging The red light turns on and the green light turns on when charging is completed.

In addition, the charger 2 has a microcomputer chip (MICOM CHIP) that has more than 20 sensing functions such as battery ID and temperature sensing and performs software control operation.

However, as the microcomputer chip is controlled in software, the secondary parts are increased and the time is consumed due to the labor cost for the software and many modifications of the software.

Accordingly, the present invention has been made to solve the above-described problems according to the prior art, and an object of the present invention is to standardize battery ID, to sense temperature only in the battery, and to provide basic functions of the charger and other sensing functions. The present invention provides a battery charger for a mobile phone that can be easily reconfigured to reduce manufacturing costs.

A battery charger for a mobile phone according to the present invention for achieving the above object is an AC / DC rectifying bridge unit for converting AC input power into a rectified DC voltage, and the DC voltage output from the AC / DC rectifying bridge unit A reference voltage unit for receiving a reference voltage and outputting a comparison voltage compared with a reference voltage, a PWM control unit for generating a power switching voltage by comparing the voltage output from the reference voltage unit with a reference voltage, and the output from the PWM control unit A step-down generator for outputting a power switching voltage according to a control signal, an output controller for receiving a power voltage output from the step-down generator and outputting it to a battery charging voltage and the PWM controller, and the reference voltage unit and output LED control unit for turning on / off the LED by the voltage output from the control unit.

1 is a schematic perspective view of a battery charger for a general mobile phone,

2 is a block diagram of a battery charger for a mobile phone according to the present invention;

3 is a circuit diagram of each block configuration of FIG. 2.

<Explanation of symbols for the main parts of the drawings>

100: AC / DC rectifying bridge part, 110: reference bolt part,

120: PWM control unit, 130: step down generation unit,

140: output control unit, 150: LED control unit.

Hereinafter, a preferred embodiment of a battery charger for a mobile phone according to the present invention will be described with reference to the accompanying drawings.

2 is a block diagram of a battery charger for a mobile phone according to the present invention.

As shown in FIG. 2, an AC / DC rectification bridge unit 100 for converting an AC 8.5V input power into a rectified DC 12V, and the AC / DC rectification A reference voltage unit 110 that receives a direct current 12 volts output from the bridge unit 100 and compares it with a reference voltage (2.5 volts) and outputs a comparison voltage, and the reference voltages (REFERENCE VOLTAGE). PWM control unit 120 to generate a power switching voltage (1.5V) by comparing the voltage output from the unit 110 and the reference voltage, and outputs the power switching voltage according to the control signal output from the PWM control unit 120 An output control unit 140 receiving a power voltage output from the step down generation unit 130 and a battery charge voltage (DC 4.2V) and the PWM control unit 120 Output from the reference voltage unit (REFERENCE VOLTAGE) 110 and the output control unit 140 Consists of LED controller 150 that turns on / off the LED by the voltage.

As shown in FIG. 3, the AC / DC rectifying bridge unit 100 includes a plurality of diodes D1, D2, D4, and D5 and a capacitor C1, C2, C6, and C7 for rectifying an AC voltage. .

The reference voltage unit 110 includes a TL494 IC chip which generates a comparison voltage by comparing a reference voltage with a voltage output from the AC / DC rectifying bridge unit 100.

The PWM control unit 120 is composed of a TSM102 / D IC chip for generating a comparison voltage by comparing a reference voltage and the voltage output from the reference voltage unit 110.

The step-down generator 130 may include a transistor Q1, a plurality of diodes D3 and D6, and a capacitor C5 turned on / off by a voltage output from the reference voltage unit 110. And coil L1 or the like.

The LED controller 150 includes a transistor Q2 and a plurality of LEDs turned on / off by a voltage output from the reference voltage unit 110 and the output controller 140.

Referring to the operation of the battery charger for mobile phones configured as described above are as follows.

First, the AC / DC rectifying bridge unit 100 receives a rectified DC (Voltage) 12 volt (V) voltage by receiving an AC power supply of 8.5 volts (V) and supplies a reference voltage unit 110. ) And the step-down generator 130.

Here, the reference voltage unit 110 compares the applied voltage with a reference voltage and applies a comparison voltage to the PWM controller 120 and the LED controller 150.

The PWM controller 120 sends a control signal to the step-down generator 130 to turn on / off the switching transistor Q1 of the step-down generator 130.

If the transistor Q1 of the step-down generator 130 is turned on, the battery controller 130 outputs the battery charging voltage DC 4.2V to the output controller 140.

In addition, the output controller 140 outputs a voltage for driving the LED to the LED controller 150.

As described above, in the present invention, the number of parts of the existing charger can be reduced by 30% or more, and the manufacturing cost can be reduced by eliminating the labor of software, thereby improving the market competitiveness of a mobile phone.

Claims (5)

An AC / DC rectifying bridge unit for converting AC input power into a rectified DC voltage; A reference voltage unit receiving a DC voltage output from the AC / DC rectifying bridge unit and outputting a comparison voltage compared with a reference voltage; A PWM control unit for generating a power switching voltage by comparing a voltage output from the reference voltage unit with a reference voltage; A step-down generator for outputting a power switching voltage according to a control signal output from the PWM controller; An output controller which receives the power voltage output from the step-down generator and outputs the battery charge voltage and the PWM controller; The battery charger for a mobile phone, characterized in that consisting of an LED control unit for turning on and off the LED by the voltage output from the reference voltage unit and the output control unit. The method of claim 1, The AC / DC rectifying bridge unit is a battery charger for a mobile phone, characterized in that consisting of a plurality of diodes and capacitors for rectifying the AC power. The method of claim 1, The reference voltage unit comprises a TL494 IC chip for comparing the reference voltage and the voltage output from the AC / DC rectifying bridge unit to generate a comparison voltage battery charger for a mobile phone. The method of claim 1, The PWM control unit is a battery charger for a mobile phone, characterized in that consisting of a TSM102 / D IC chip to generate a comparison voltage by comparing the reference voltage and the voltage output from the reference voltage unit. The method of claim 1, And the step-down generator comprises a transistor and a plurality of diodes, capacitors, and coils turned on / off by the voltage output from the reference voltage unit.